Category Archives: population

Looking at the news, it can be easy to see only a world full of death, destruction, poverty, environmental decay, rising terrorism and crime; a world full of greed and corruption, with fanaticism, prejudice and ignorance in place of reason and knowledge; a world with barriers replacing bridges. It is especially hard to see the leaders we so badly need to get us out of the mess. We have a collection of some of the worst western leaders of my lifetime, whose main skill seems to be marketing, avoiding answering legitimate questions put to them by their electorates, and always answering different questions that present their policies in a more favorable light. A reasonable person who just watches news and current affairs programs could get rather pessimistic about our future, heading towards hell in a cart driven by an idiot.

But a reasonable person should not just watch the news and current affairs. They should also watch and read other things. When they do so, they will see cause for hope. I study the future all day, almost every day. I am not pessimistic, nor am I an idealist. I am only interested in what will actually be, not in wearing politically tinted spectacles. I can see lots of things down the road, good and bad, but I see a future that is better than today. Not a utopia, but certainly not a dystopia, and better overall. If asked, I can spin a tale of doom as good as anyone, but only by leaving out half of the facts. I often address future problems in my blogs, but I still sleep well at night, confident that my descendants will have a happy and prosperous future.

Leaders come and go. Obama will not be recorded in history as one of America’s better presidents and he has done little for the credibility of the Nobel Peace Prize. Cameron will be remembered as one of our worst PMs, up there with Brown and (perish the thought) Miliband. Our drunkard EU president Juncker won’t shine either, more likely to increase corruption and waste than to deal with it. But we’ll get better leaders. Recessions also come and go. We may see another financial collapse any time now and maybe another after that, but the long term still looks good. Even during recession, progress continues. Better materials, better science, better medical tools and better drugs, better transport, better communications and computing, better devices, batteries and energy supplies. These all continue to improve, recession or not. So when recession finally subsides, we can buy a better lifestyle with less money. All that background development then feeds into recovered industry to accelerate it well past the point where recession arrived.

It makes sense therefore to treat recessions as temporary blockages on economic development. They are unpleasant but they don’t last. When economies become healthy again, development resumes at an accelerated rate thanks to latent development potential that has accumulated during them.

If we take 2.5% growth as fairly typical during healthy times, that adds up to prosperity very quickly. 2.5% doesn’t sound much, and you barely notice a 2.5% pay rise. But over 45 years it triples the size of an economy. Check it yourself 1.025 ^ 45 = 3.038. National debts might sound big compared to today’s economies but compared to 45 or 50 years time they are much less worrying. That assumes of course that we don’t keep electing parties that want to waste money by throwing it at national treasures rather than forcing them to become more efficient.

So there is economic hope for sure. Our kids will be far wealthier than us. In the UK, they are worried about debts they accumulate at university, but by mid-career, those will be ancient history and they’ll be far better off after that.

It isn’t all about personal wealth or even national wealth. Having more resources at your disposal makes it possible to do other things. Many countries today are worried about mass migrations. Migrations happen because of wars and because of enormous wealth differences. Most of us prefer familiarity, so would only move if we have to to get a better life for ourselves or our kids. If the global economy is three times bigger in 45 years, and 9 times bigger in 90 years, is genuine poverty really something we can’t fix? Of course it isn’t. With better science and technology, a reasonable comfortable lifestyle will be possible for everyone on the planet this century. We talk of citizen wages in developed countries. Switzerland could afford one any time now. The UK could afford a citizen wage equivalent to today’s average wage within 45 years (that means two average wages coming in for a childless couple living together and even more for families), the USA a little earlier. By 2100, everyone in the world could have a citizen wage equivalent in local spending parity terms to UK average wage today. People might still migrate, but it would be for reasons other than economic need.

If people are comfortable financially, wars will reduce too. Tribal and religious conflicts will still occur, but the fights over resources will be much reduced. Commercially motivated crime also reduces when comfort is available for free.

Extremist environmental groups see economic growth as the enemy of the environment. That is because they generally hate science and technology and don’t understand how they develop. In fact, technology generally gets cleaner and less resource hungry as it develops. A 150g (6oz) mobile not only replaces a ton of early 1990s gadgets but even adds lifestyle functionality. It uses less energy and less resource and improves life. Cars are far cleaner and far more efficient and use far less resources than their predecessors. Bridges and buildings too. Future technology will do that all over again. We will grow more and better food on less land, and free up land to return to nature. We’ll help nature recover, restore and nurture ecosystems. We’ll reduce pollution. The 2100 environment will be cleaner and healthier than today’s by far, and yet most people will lead vastly improved lives, with better food, better homes, better gadgets, better transport, better health, more social and business capability, more money to play with. There will still be some bad leaders, terrorist groups, rogue states, bad corporations, criminals, social problems.

It won’t be perfect by any means. Some people will sometimes have bad times, but on balance, it will be better. Utopia is theoretically possible, but people won’t let it happen, but it will be better for most people most of the time. We shouldn’t underestimate people’s capacity to totally screw things up, but those will be short term problems. We might even have wars, but they pass.

The world often looks like a dark place right now and lots of big problems lie ahead. But ignore the doomsayers, look beyond those, and the future actually looks pretty damned good!

I recently blogged about the citizen wage and how under 35s in developed countries won’t need pensions. I cut and pasted it below this new pic for convenience. The pic contains the argument so you don’t need to read the text.

Economic growth makes citizen wage feasible and pensions irrelevant

If you do want to read it as text, here is the blog cut and pasted:

I introduced my calculations for a UK citizen wage in https://timeguide.wordpress.com/2013/04/08/culture-tax-and-sustainable-capitalism/, and I wrote about the broader topic of changing capitalism a fair bit in my book Total Sustainability. A recent article http://t.co/lhXWFRPqhn reminded me of my thoughts on the topic and having just spoken at an International Longevity Centre event, ageing and pensions were in my mind so I joined a few dots. We won’t need pensions much longer. They would be redundant if we have a citizen wage/universal wage.

I argued that it isn’t economically feasible yet, and that only a £10k income could work today in the UK, and that isn’t enough to live on comfortably, but I also worked out that with expected economic growth, a citizen wage equal to the UK average income today (£30k) would be feasible in 45 years. That level will sooner be feasible in richer countries such as Switzerland, which has already had a referendum on it, though they decided they aren’t ready for such a change yet. Maybe in a few years they’ll vote again and accept it.

The citizen wage I’m talking about has various names around the world, such as universal income. The idea is that everyone gets it. With no restrictions, there is little running cost, unlike today’s welfare which wastes a third on admin.

Imagine if everyone got £30k each, in today’s money. You, your parents, kids, grandparents, grand-kids… Now ask why you would need to have a pension in such a system. The answer is pretty simple. You won’t. A retired couple with £60k coming in can live pretty comfortably, with no mortgage left, and no young kids to clothe and feed. Let’s look at dates and simple arithmetic:

45 years from now is 2060, and that is when a £30k per year citizen wage will be feasible in the UK, given expected economic growth averaging around 2.5% per year. There are lots of reasons why we need it and why it is very likely to happen around then, give or take a few years – automation, AI, decline of pure capitalism, need to reduce migration pressures, to name just a few

Those due to retire in 2060 at age 70 would have been born in 1990. If you were born before that, you would either need a small pension to make up to £30k per year or just accept a lower standard of living for a few years. Anyone born in 1990 or later would be able to stop working, with no pension, and receive the citizen wage. So could anyone else stop and also receive it. That won’t cause economic collapse, since most people will welcome work that gives them a higher standard of living, but you could just not work, and just live on what today we think of as the average wage, and by then, you’ll be able to get more with it due to reducing costs via automation.

So, everyone after 2060 can choose to work or not to work, but either way they could live at least comfortably. Anyone less than 25 today does not need to worry about pensions. Anyone less than 35 really doesn’t have to worry much about them, because at worst they’ll only face a small shortfall from that comfort level and only for a few years. I’m 54, I won’t benefit from this until I am 90 or more, but my daughter will.

Summarising:

Are you under 25 and living in any developed country? Then don’t pay into a pension, you won’t need one.

Under 35, consider saving a little over your career, but only enough to last you a few years.

Although age-related decline can be postponed significantly, it will eventually come. But that is just biological decline. In a few decades, people will have their brains linked to the machine world and much of their mind will be online, and that opens up the strong likelihood that death is not inevitable, and in fact anyone who expects to live past 2070 biologically (and rich people who can get past 2050) shouldn’t need to face death of their mind. Their bodies will eventually die, but their minds can live on, and an android body will replace the biological one they’ve lost.

Death used to be one of the great certainties of life, along with taxes. But unless someone under 35 now is unfortunate enough to die early from accident or disease, they have a good chance of not dying at all. Let’s explore that.

Genetics and other biotechnology will work with advanced materials technology and nanotechnology to limit and even undo damage caused by disease and age, keeping us young for longer, eventually perhaps forever. It remains to be seen how far we get with that vision in the next century, but we can certainly expect some progress in that area. We won’t get biological immortality for a good while, but if you can move into a high quality android body, who cares?

With this combination of technologies locked together with IT in a positive feedback loop, we will certainly eventually develop the technology to enable a direct link between the human brain and the machine, i.e. the descendants of today’s computers. On the computer side, neural networks are already the routine approach to many problems and are based on many of the same principles that neurons in the brain use. As this field develops, we will be able to make a good emulation of biological neurons. As it develops further, it ought to be possible on a sufficiently sophisticated computer to make a full emulation of a whole brain. Progress is already happening in this direction.

Meanwhile, on the human side, nanotechnology and biotechnology will also converge so that we will have the capability to link synthetic technology directly to individual neurons in the brain. We don’t know for certain that this is possible, but it may be possible to measure the behaviour of each individual neuron using this technology and to signal this behaviour to the brain emulation running in the computer, which could then emulate it. Other sensors could similarly measure and allow emulation of the many chemical signalling mechanisms that are used in the brain. The computer could thus produce an almost perfect electronic equivalent of the person’s brain, neuron by neuron. This gives us two things.

Firstly, by doing this, we would have a ‘backup’ copy of the person’s brain, so that in principle, they can carry on thinking, and effectively living, long after their biological body and brain has died. At this point we could claim effective immortality. Secondly, we have a two way link between the brain and the computer which allows thought to be executed on either platform and to be signalled between them.

There is an important difference between the brain and computer already that we may be able to capitalise on. In the brain’s neurons, signals travel at hundreds of metres per second. In a free space optical connection, they travel at hundreds of millions of metres per second, millions of times faster. Switching speeds are similarly faster in electronics. In the brain, cells are also very large compared to the electronic components of the future, so we may be able to reduce the distances over which the signals have to travel by another factor of 100 or more. But this assumes we take an almost exact representation of brain layout. We might be able to do much better than this. In the brain, we don’t appear to use all the neurons, (some are either redundant or have an unknown purpose) and those that we do use in a particular process are often in groups that are far apart. Reconfigurable hardware will be the norm in the 21st century and we may be able to optimize the structure for each type of thought process. Rearranging the useful neurons into more optimal structures should give another huge gain.

This means that our electronic emulation of the brain should behave in a similar way but much faster – maybe billions of times faster! It may be able to process an entire lifetime’s thoughts in a second or two. But even there are several opportunities for vast improvement. The brain is limited in size by a variety of biological constraints. Even if there were more space available, it could not be made much more efficient by making it larger, because of the need for cooling, energy and oxygen supply taking up ever more space and making distances between processors larger. In the computer, these constraints are much more easily addressable, so we could add large numbers of additional neurons to give more intelligence. In the brain, many learning processes stop soon after birth or in childhood. There need be no such constraints in computer emulations, so we could learn new skills as easily as in our infancy. And best of all, the computer is not limited by the memory of a single brain – it has access to all the world’s information and knowledge, and huge amounts of processing outside the brain emulation. Our electronic brain could be literally the size of the planet – the whole internet and all the processing and storage connected to it.

With all these advances, the computer emulation of the brain could be many orders of magnitude superior to its organic equivalent, and yet it might be connected in real time to the original. We would have an effective brain extension in cyberspace, one that gives us immeasurably improved performance and intelligence. Most of our thoughts might happen in the machine world, and because of the direct link, we might experience them as if they had occurred inside our head.

Our brains are in some ways equivalent in nature to how computers were before the age of the internet. They are certainly useful, but communication between them is slow and inefficient. However, when our brains are directly connected to machines, and those machines are networked, then everyone else’s brains are also part of that network, so we have a global network of people’s brains, all connected together, with all the computers too.

So we may soon eradicate death. By the time today’s children are due to die, they will have been using brain extensions for many years, and backups will be taken for granted. Death need not be traumatic for our relatives. They will soon get used to us walking around in an android body. Funerals will be much more fun as the key participant makes a speech about what they are expecting from their new life. Biological death might still be unpleasant, but it need no longer be a career barrier.

In terms of timescales, rich people might have this capability by 2050 and the rest of us some time before 2070. Your life expectancy biologically is increasing every year, so even if you are over 35, you have a pretty good chance of surviving long enough to gain. Half the people alive today are under 35 and will almost certainly not die fully. Many more are under 50 and some of them will live on electronically too. If you are over 50, the chances are that you will be the last generation of your family ever to have a full death.

As a side-note, there are more conventional ways of achieving immortality. Some Egyptian pharaohs are remembered because of their great pyramids. A few philosophers, artists, engineers and scientists have left such great works that they are remembered millennia later. And of course, on a small scale, for the rest of us, making an impression on those around us keeps your memory going a few generations. Writing a book immortalises your words. And you may have a multimedia headstone on your grave, or one that at least links into augmented reality to bring up your old web page of social networking site profile. But frankly, I am with Woody Allen on this one “I don’t want to achieve immortality through my work; I want to achieve immortality through not dying”. I just hope the technology arrives early enough.

I’ve done patches of work on this topic frequently over the last 20 years. It usually features in my books at some point too, but it’s always good to look afresh at anything. Sometimes you see something you didn’t see last time.

Some of the potential future is pretty obvious. I use the word potential, because there are usually choices to be made, regulations that may or may not get in the way, or many other reasons we could divert from the main road or even get blocked completely.

We’ve been learning genetics now for a long time, with a few key breakthroughs. It is certain that our understanding will increase, less certain how far people will be permitted to exploit the potential here in any given time frame. But let’s take a good example to learn a key message first. In IVF, we can filter out embryos that have the ‘wrong’ genes, and use their sibling embryos instead. Few people have a problem with that. At the same time, pregnant women may choose an abortion if they don’t want a child when they discover it is the wrong gender, but in the UK at least, that is illegal. The moral and ethical values of our society are on a random walk though, changing direction frequently. The social assignment of right and wrong can reverse completely in just 30 years. In this example, we saw a complete reversal of attitudes to abortion itself within 30 years, so who is to say we won’t see reversal on the attitude to abortion due to gender? It is unwise to expect that future generations will have the same value sets. In fact, it is highly unlikely that they will.

That lesson likely applies to many technology developments and quite a lot of social ones – such as euthanasia and assisted suicide, both already well into their attitude reversal. At some point, even if something is distasteful to current attitudes, it is pretty likely to be legalized eventually, and hard to ban once the door is opened. There will always be another special case that opens the door a little further. So we should assume that we may eventually use genetics to its full capability, even if it is temporarily blocked for a few decades along the way. The same goes for other biotech, nanotech, IT, AI and any other transhuman enhancements that might come down the road.

So, where can we go in the future? What sorts of splits can we expect in the future human evolution path? It certainly won’t remain as just plain old homo sapiens.

I drew this evolution path a long time ago in the mid 1990s:

It was clear even then that we could connect external IT to the nervous system, eventually the brain, and this would lead to IT-enhanced senses, memory, processing, higher intelligence, hence homo cyberneticus. (No point in having had to suffer Latin at school if you aren’t allowed to get your own back on it later). Meanwhile, genetic enhancement and optimization of selected features would lead to homo optimus. Converging these two – why should you have to choose, why not have a perfect body and an enhanced mind? – you get homo hybridus. Meanwhile, in the robots and AI world, machine intelligence is increasing and we eventually we get the first self-aware AI/robot (it makes little sense to separate the two since networked AI can easily be connected to a machine such as a robot) and this has its own evolution path towards a rich diversity of different kinds of AI and robots, robotus multitudinus. Since both the AI world and the human world could be networked to the same network, it is then easy to see how they could converge, to give homo machinus. This future transhuman would have any of the abilities of humans and machines at its disposal. and eventually the ability to network minds into a shared consciousness. A lot of ordinary conventional humans would remain, but with safe upgrades available, I called them homo sapiens ludditus. As they watch their neighbors getting all the best jobs, winning at all the sports, buying everything, and getting the hottest dates too, many would be tempted to accept the upgrades and homo sapiens might gradually fizzle out.

My future evolution timeline stayed like that for several years. Then in the early 2000s I updated it to include later ideas:

I realized that we could still add AI into computer games long after it becomes comparable with human intelligence, so games like EA’s The Sims might evolve to allow entire civilizations living within a computer game, each aware of their existence, each running just as real a life as you and I. It is perhaps unlikely that we would allow children any time soon to control fully sentient people within a computer game, acting as some sort of a god to them, but who knows, future people will argue that they’re not really real people so it’s OK. Anyway, you could employ them in the game to do real knowledge work, and make money, like slaves. But since you’re nice, you might do an incentive program for them that lets them buy their freedom if they do well, letting them migrate into an android. They could even carry on living in their Sims home and still wander round in our world too.

Emigration from computer games into our world could be high, but the reverse is also possible. If the mind is connected well enough, and enhanced so far by external IT that almost all of it runs on the IT instead of in the brain, then when your body dies, your mind would carry on living. It could live in any world, real or fantasy, or move freely between them. (As I explained in my last blog, it would also be able to travel in time, subject to certain very expensive infrastructural requirements.) As well as migrants coming via electronic immortality route, it would be likely that some people that are unhappy in the real world might prefer to end it all and migrate their minds into a virtual world where they might be happy. As an alternative to suicide, I can imagine that would be a popular route. If they feel better later, they could even come back, using an android. So we’d have an interesting future with lots of variants of people, AI and computer game and fantasy characters migrating among various real and imaginary worlds.

But it doesn’t stop there. Meanwhile, back in the biotech labs, progress is continuing to harness bacteria to make components of electronic circuits (after which the bacteria are dissolved to leave the electronics). Bacteria can also have genes added to emit light or electrical signals. They could later be enhanced so that as well as being able to fabricate electronic components, they could power them too. We might add various other features too, but eventually, we’re likely to end up with bacteria that contain electronics and can connect to other bacteria nearby that contain other electronics to make sophisticated circuits. We could obviously harness self-assembly and self-organisation, which are also progressing nicely. The result is that we will get smart bacteria, collectively making sophisticated, intelligent, conscious entities of a wide variety, with lots of sensory capability distributed over a wide range. Bacteria Sapiens.

I often talk about smart yogurt using such an approach as a key future computing solution. If it were to stay in a yogurt pot, it would be easy to control. But it won’t. A collective bacterial intelligence such as this could gain a global presence, and could exist in land, sea and air, maybe even in space. Allowing lots of different biological properties could allow colonization of every niche. In fact, the first few generations of bacteria sapiens might be smart enough to design their own offspring. They could probably buy or gain access to equipment to fabricate them and release them to multiply. It might be impossible for humans to stop this once it gets to a certain point. Accidents happen, as do rogue regimes, terrorism and general mad-scientist type mischief.

And meanwhile, we’ll also be modifying nature. We’ll be genetically enhancing a wide range of organisms, bringing some back from extinction, creating new ones, adding new features, changing even some of the basic mechanism by which nature works in some cases. We might even create new kinds of DNA or develop substitutes with enhanced capability. We may change nature’s evolution hugely. With a mix of old and new and modified, nature evolves nicely into Gaia Sapiens.

We’re not finished with the evolution chart though. Here is the next one:

Just one thing is added. Homo zombius. I realized eventually that the sci-fi ideas of zombies being created by viruses could be entirely feasible. A few viruses, bacteria and other parasites can affect the brains of the victims and change their behaviour to harness them for their own life cycle.

See http://io9.com/12-real-parasites-that-control-the-lives-of-their-hosts-461313366 for fun.

Bacteria sapiens could be highly versatile. It could make virus variants if need be. It could evolve itself to be able to live in our bodies, maybe penetrate our brains. Bacteria sapiens could make tiny components that connect to brain cells and intercept signals within our brains, or put signals back in. It could read our thoughts, and then control our thoughts. It could essentially convert people into remote controlled robots, or zombies as we usually call them. They could even control muscles directly to a point, so even if the zombie is decapitated, it could carry on for a short while. I used that as part of my storyline in Space Anchor. If future humans have widespread availability of cordless electricity, as they might, then it is far fetched but possible that headless zombies could wander around for ages, using the bacterial sensors to navigate. Homo zombius would be mankind enslaved by bacteria. Hopefully just a few people, but it could be everyone if we lose the battle. Think how difficult a war against bacteria would be, especially if they can penetrate anyone’s brain and intercept thoughts. The Terminator films looks a lot less scary when you compare the Terminator with the real potential of smart yogurt.

Bacteria sapiens might also need to be consulted when humans plan any transhuman upgrades. If they don’t consent, we might not be able to do other transhuman stuff. Transhumans might only be possible if transbacteria allow it.

Not done yet. I wrote a couple of weeks ago about fairies. I suggested fairies are entirely feasible future variants that would be ideally suited to space travel.

They’d also have lots of environmental advantages as well as most other things from the transhuman library. So I think they’re inevitable. So we should add fairies to the future timeline. We need a revised timeline and they certainly deserve their own branch. But I haven’t drawn it yet, hence this blog as an excuse. Before I do and finish this, what else needs to go on it?

Well, time travel in cyberspace is feasible and attractive beyond 2075. It’s not the proper real world time travel that isn’t permitted by physics, but it could feel just like that to those involved, and it could go further than you might think. It certainly will have some effects in the real world, because some of the active members of the society beyond 2075 might be involved in it. It certainly changes the future evolution timeline if people can essentially migrate from one era to another (there are some very strong caveats applicable here that I tried to explain in the blog, so please don’t misquote me as a nutter – I haven’t forgotten basic physics and logic, I’m just suggesting a feasible implementation of cyberspace that would allow time travel within it. It is really a cyberspace bubble that intersects with the real world at the real time front so doesn’t cause any physics problems, but at that intersection, its users can interact fully with the real world and their cultural experiences of time travel are therefore significant to others outside it.)

What else? OK, well there is a very significant community (many millions of people) that engages in all sorts of fantasy in shared on-line worlds, chat rooms and other forums. Fairies, elves, assorted spirits, assorted gods, dwarves, vampires, werewolves, assorted furry animals, assorted aliens, dolls, living statues, mannequins, remote controlled people, assorted inanimate but living objects, plants and of course assorted robot/android variants are just some of those that already exist in principle; I’m sure I’ve forgotten some here and anyway, many more are invented every year so an exhaustive list would quickly become out of date. In most cases, many people already role play these with a great deal of conviction and imagination, not just in standalone games, but in communities, with rich cultures, back-stories and story-lines. So we know there is a strong demand, so we’re only waiting for their implementation once technology catches up, and it certainly will.

Biotech can do a lot, and nanotech and IT can add greatly to that. If you can design any kind of body with almost any kind of properties and constraints and abilities, and add any kind of IT and sensing and networking and sharing and external links for control and access and duplication, we will have an extremely rich diversity of future forms with an infinite variety of subcultures, cross-fertilization, migration and transformation. In fact, I can’t add just a few branches to my timeline. I need millions. So instead I will just lump all these extras into a huge collected category that allows almost anything, called Homo Whateverus.

So, here is the future of human (and associates) evolution, for the next 150 years. A few possible cross-links are omitted for clarity

Dr Who should have written this but he didn’t so I have to. We keep seeing those cute little tears in space-time in episodes of the BBC’s Dr Who, that let through Daleks and Cybermen and other nasties. (As an aside, how come feminists never seem to object to the term Cybermen, even though 50% of them are made from women?). Dr Who calls them rifts, and it allegedly needs the energy of entire star systems to open and close them. So, not much use as a weapon then, but still a security issue if our universe leaks.

Sci-fi authors have recognized the obvious dangers of time-space rifts for several decades. They cause problems with causality as well. I got a Physics degree a long time ago (well, Applied Mathematics and Theoretical Physics, but all the maths was EM theory, quantum mechanics and relativity, so it was really a physics degree), but I have never really understood fully why causality is such a big deal. Sure it needs a lot of explaining if it fails, but why would an occasional causal error cause such a huge problem? The Daleks are far more worrying. **Politically incorrect joke censored**

I just wrote about time travel again. All competent physicists rightly switch on their idiot filters automatically on hearing any of the terms ‘cold fusion’, ‘telekinetic’, ‘psychic’, ‘perpetual motion machine’, ‘time travel’ or ‘global warming catastrophe’. Sorry, that last one just sort of crept in there. Time travel is not really possible, unless you’re inside a black hole or you’re talking about a particle shifting atoseconds in a huge accelerator or GPS relativistic corrections or something. A Tardis isn’t going to be here any time soon and may be impossible and never ever come. However, there is a quite real cyberspace route to quite real time travel that will become feasible around 2075, a virtual rift if you like, but no need to activate idiot filters just yet, it’s only a virtual rift, a rift in a sandbox effectively, and it won’t cause the universe to collapse or violate any known laws of physics. So, hit the temporary override button on your idiot filter. It’s a fun thought experiment that gets more and more fun the more you look at it. (Einstein invented thought experiments to investigate relativity, because he couldn’t do any real experiments with the technology of his time. We can’t verify this sort of time travel experimentally yet so thought experiment is the only mechanism available. Sadly, I don’t have Einstein’s brain to hand, but some aspects at least are open to the rest of us to explore.) The hypothesis here is that if you can make a platform that stores the state of all the minds in a system continuously over a period from A to B, and that runs all those minds continuously using a single editable record, then you can travel in time freely between A and B. Now we need to think it through a bit to test the hypothesis and see what virtual physics we can learn from it, see how real it would be and what it would need and lead to.

that cyberspace offers a time travel cheat. The basic idea, to save you reading it now that it’s out of date, is that some time soon after 2050 – let’s take 2075 as the date that crowd-funding enables its implementation – we’ll all be able to connect our brains so well to the machine world that it will be possible to share thoughts and consciousness, sensations, effectively share bodies, live electronically until all the machines stop working, store your mind as a snapshot periodically in case you want to restore to an earlier backup and do all sorts of really fun things like swapping personalities. (You can see why it might attract the required funding so might well become real). If that recording of your mind is complete enough, and it could be, then, you really could go back to an earlier state of yourself. More importantly, a future time tourist could access all the stored records and create an instance of your mind and chat to you and chat and interact with you from the future. This would allow future historians to do history better. Well, that’s the basic version. Our thought experiment version needs to go a bit further than that. Let’s call it the deluxe version.

If you implement the deluxe version, then minds run almost entirely on the machine world platform, and are hosted there with frequent restore points. The current state of the system is an interactive result of real-time running of all the minds held in cyberspace across the whole stored timeline. For those minds running on the deluxe version platform, there isn’t any other reality. That’s what makes up those future humans and AIs on it. Once you join the system, you can enjoy all of the benefits above and many more.

You could actually change old records and use the machines to ripple the full system-wide consequences all the way through the timeline to whenever your future today is. It would allow you to go back to visit your former self and do some editing, wouldn’t it? And in this deluxe version, the edits you make would ripple through into your later self. That’s what you get when you migrate the human mind from the Mk1 human brain platform into the machine world platform. It becomes endlessly replicable and editable. In this deluxe version, the future world really could be altered by editing the past. You may reasonably ask why we would allow any moron to allow that to be built, but that won’t affect the theoretical ability to travel in time through cyberspace.

It is very easy to see how such a system allows you to chat with someone in the past. What is less obvious, and what my excuse for a brain missed first time round, is that it also lets you travel forwards in time. How, you may reasonably ask, can you access and edit records that don’t exist yet? Well, think of it from the other direction. Someone in the future can restore any previous instance of you from any time point and talk to them, even edit them. They could do that all in some sort of time-play sandbox to save money and avoid quite a few social issues, or they could restore you fully to their time, and since the reality is just real-time emulation all rippled through nicely by the machine platform, you would suddenly appear in the future and become part of that future world. You could wander around in a future android body and do physical things in that future physical world just as if you’d always lived there. Your future self would feel they have travelled in time. But a key factor here is that it could be your future self that makes it happen. You could make a request in 2075 to your future self to bring you to the future in 2150. When 2150 arrives, you see (or might even remember) the request, you go into the archives, and you restore your old 2075 self to 2150, then you instruct deletion of all the records between 2075 and 2150 and then you push the big red button. The system runs all the changes and effects through the timeline, and the result is that you disappear in 2075, and suddenly reappear in 2150.

There would be backups of the alternative timeline, but the official and effective system reality would be that you travelled from 2075 to 2150. That will be the reality running on the deluxe system. Any other realities are just backups and records on a database. Now,so far it’s a one way trip, far better if you can have a quick trip to the future and come back. So, you’re in 2150, suppose you want to go back again. You’ve been around a while and don’t like the new music or the food or something. So before you go, you do the usual time mischief. You collect lots of really useful data about how all the latest tech works, buy the almanacs of who wins what, just like in Back to the Future, just in case the system has bugs that let you use them, and you tweak the dials again. You set the destination to 2075 and hit the big red button. The system writes your new future-wise self over your original 2075 entry, keeping a suitable backup of course. The entry used by the deluxe system is whatever is written in its working record, and that is the you that went to 2150 and back. Any other realities are just backups. So, the system ripples it all through the timeline. You start the day in 2075, have a quick trip for a week’s holiday in 2150, and then return a few minutes later. Your 2075 self will have experienced a trip to 2150 and come back, complete with all the useful data about the 2150 world. If you don’t mess with anything else, you will remember that trip until 2150, at which time you’ll grab a few friends and chat about the first time you ever did time travel.

All of the above is feasible theoretically, and none of it violates any known physics. The universe won’t collapse in a causality paradox bubble rift if you do it, no need to send for Dr Who. That doesn’t mean it isn’t without issues. It still creates a lot of the time travel issues we are so familiar with from sci-fi. But this one isn’t sci-fi – we could build it, and we could get the crowd-funding to make it real by 2075. Don’t get too excited yet though.

You could have gone further into the future than 2150 too, but there is a limit. You can only go as far as there exists a continuous record from where you are. You basically need a road that goes all the way there. If some future authority bans time travel or changes to an incompatible system, that represents a wall you can’t pass through. An even later authority could only remove that wall under certain circumstances, and only if they have the complete records, and the earlier authority might have stopped storing them or even deleted earlier ones and that would ruin any chances of doing it properly.

So, having established that it is possible, we have to ask the more serious question: how real is this time travel? Is it just a cyberspace trick with no impact on the real world? Well, in this scenario, your 2075 mind runs on the deluxe system using its 2075 record. But which one, the old one or the edited one? The edited one of course. The old version is overwritten and ceases to exist except as a backup. There remains no reality except the one you did your time travel trip in. Your time trip is real. But let’s ask a few choice questions, because reality can turn out to be just an illusion sometimes.

So, when you get home to 2075, you can print off your 2150 almanac and brag about all the new technologies you just invented from 2150. Yes?

Yes… if you implement the deluxe version.

Is there a causality paradox?

No.

Will the world end?

No.

But you just short-circuited technology development from 2075 to 2150?

Yes.

So you can do real time travel from 2075? You’ll suddenly vanish from 2075, spend some time in 2150, and later reappear in 2075?

Yes, if you implement the deluxe version.

Well, what happens in 2150?

You’ll do all the pushing red button stuff and have a party with your friends to remember your first time trip. If you set the times right, you could even invite your old self from 2075 as a guest and wave goodbye as you* goes back to 2075.

Or you* could stay in 2150 and there’d be two of you from then on?

Yes

OK, this sounds great fun. So when can we build this super-duper deluxe version that let’s you time travel from 2075 to 2150 and go back again.

2150

And what happens to me between 2075 and 2150 while I wait for it to be built?

Well, you invest in the deluxe version, connect into the system, and it starts recording all its subscribers’ minds from then on, and you carry on enjoying life until 2150 arrives. Then you can travel from 2075 to 2150, retrospectively.

Retrospectively?

Well, you can travel from 2075 to whatever date in the future the deluxe system still exists. And your 2075 self will fully experience it as time travel. It won’t feel retrospective.

But you have to wait till that date before you can go there?

Yes. But you won’t remember having to wait, all the records of that will be wiped, you’ll just vanish in 2075 and reappear in 2150 or whenever.

What *insert string of chosen expletives here* use is that?

Erm…. Well…. You will still have enjoyed a nice life from 2075 to 2150 before it’s deleted and replaced.

But I won’t remember that will I?

No. But you won’t remember it when you’re dead either.

So I can only do this sort of time travel by having myself wiped off the system for all the years in between after I’ve done it? So the best way of doing that is not to bother with all the effort of living through all those years since they’re going to be deleted anyway and save all the memory and processing by just hibernation in the archives till that date arrives? So I’ll really vanish in 2075 and be restored in 2150 and feel it as time travel? And there won’t be any messy database records to clean up in between, and it will all be nice and environmentally friendly? And not having to run all those people years that would later be deleted will reduce storage and processing costs and system implementation costs dramatically?

Well, you can travel back and forth through time as much as you like and socialize with anyone from any time zone and live in any time period. Some people from 2150 might prefer to live in 2075 and some from 2075 prefer to live in 2150. Everyone can choose when they live or just roam freely through the entire time period. A bit like that episode of Star Trek TOS where they all got sent through a portal to different places and times and mixed with societies made of others who had come the same way. You could do that. A bit like a glorified highly immersive computer game.

But what about gambling and using almanacs from the future? And inventing stuff in 2075 that isn’t really invented till 2150?

All the knowledge and data from 2150 will be there in the 2075 system so you won’t have anything new and gambling won’t be a viable industry. But it won’t be actually there until 2150. So the 2075 database will be a retrospective singularity where all of the future knowledge suddenly appears.

Isn’t that a rift in the time-space continuum, letting all the future weapons and political activists and terrorists and their plans through from 2150 to 2075? And Daleks? Some idiot will build one just for the hell of it. They’ll come through the rift too won’t they. And Cyberpersons?

It will not be without technical difficulties. And anyway, they can’t do any actual damage outside the system.

But these minds running in the system will be connected to android bodies or humans outside it. Their minds can time travel through cyberspace. Can’t they do anything nasty?

No, they can only send their minds back and connect to stuff within the system. Any androids and bodies could only be inhabited by first generation minds that belong to that physical time. They can only make use of androids or other body sharing stuff when they travel forwards through time, because it is their chosen future date where the android lives and they can arrange that. On a journey backwards, they can only change stuff running in the system.

And that’s what stops it violating physics?

Yes

So let’s get this straight. This whole thing is great for extending your mind into cyberspace, sharing bodies, swapping personalities, changing gender or age, sharing consciousness and some other things. But time travel is only possible for your mind that is supported exclusively in the system. And only that bit in the system can time travel. And your actual 2075 body can’t feel the effect at all or do anything about it? So it’s really another you that this all happens to and you start diverging from your other cyber-self the moment you connect. A replica of you enjoys all the benefits but it thinks it is you and feels like you and essentially is you, but not in the real world. And the original you carries on in parallel.

Correct. It is a big cyberspace bubble created over time with continuous timeline emulation, that only lets you time travel and interact within the bubble. Like an alternative universe, and you can travel in time in it. But it can only interact with the physical universe in real time at the furthermost frontier of the bubble. A frontier that moves into the future at the same speed as the rest of the local space-time continuum and doesn’t cause any physics problems or real time paradoxes outside of the system.

So it’s not REAL time travel. It’s just a sort of cyber-sandbox, albeit one that will be good fun and still worth building.

You can time travel in the parallel universe that you make in cyberspace. But it will be real within that universe. Forwards physical time travel is additionally possible in the physical universe if you migrate your mind totally into cyberspace, e.g. when you die, so you can live electronically, and even then it is really just a fancy form of hibernation. And if you travel back in time in the system, you won’t be able to interact with the physical stuff in the past, only what is running on the system. As long as you accept those limitations, you can travel in time after 2075 and live in any period supported after that.

Why do all the good things only ever happen in another universe?

I don’t know.

No physics or mathematics has knowingly been harmed during this thought experiment. No responsibility is accepted for any time-space rifts created as a result of analytical error.

It is very risky naming the final frontier. A frontier is just the far edge of where we’ve got to.

Technology has a habit of opening new doors to new frontiers so it is a fast way of losing face. When Star Trek named space as the final frontier, it was thought to be so. We’d go off into space and keep discovering new worlds, new civilizations, long after we’ve mapped the ocean floor. Space will keep us busy for a while. In thousands of years we may have gone beyond even our own galaxy if we’ve developed faster than light travel somehow, but that just takes us to more space. It’s big, and maybe we’ll never ever get to explore all of it, but it is just a physical space with physical things in it. We can imagine more than just physical things. That means there is stuff to explore beyond space, so space isn’t the final frontier.

So… not space. Not black holes or other galaxies.

Certainly not the ocean floor, however fashionable that might be to claim. We’ll have mapped that in details long before the rest of space. Not the centre of the Earth, for the same reason.

How about cyberspace? Cyberspace physically includes all the memory in all our computers, but also the imaginary spaces that are represented in it. The entire physical universe could be simulated as just a tiny bit of cyberspace, since it only needs to be rendered when someone looks at it. All the computer game environments and virtual shops are part of it too. The cyberspace tree doesn’t have to make a sound unless someone is there to hear it, but it could. The memory in computers is limited, but the cyberspace limits come from imagination of those building or exploring it. It is sort of infinite, but really its outer limits are just a function of our minds.

Games? Dreams? Human Imagination? Love? All very new agey and sickly sweet, but no. Just like cyberspace, these are also all just different products of the human mind, so all of these can be replaced by ‘the human mind’ as a frontier. I’m still not convinced that is the final one though. Even if we extend that to greatly AI-enhanced future human mind, it still won’t be the final frontier. When we AI-enhance ourselves, and connect to the smart AIs too, we have a sort of global consciousness, linking everyone’s minds together as far as each allows. That’s a bigger frontier, since the individual minds and AIs add up to more cooperative capability than they can achieve individually. The frontier is getting bigger and more interesting. You could explore other people directly, share and meld with them. Fun, but still not the final frontier.

Time adds another dimension. We can’t do physical time travel, and even if we can do so in physics labs with tiny particles for tiny time periods, that won’t necessarily translate into a practical time machine to travel in the physical world. We can time travel in cyberspace though, as I explained in

and when our minds are fully networked and everything is recorded, you’ll be able to travel back in time and genuinely interact with people in the past, back to the point where the recording started. You would also be able to travel forwards in time as far as the recording stops and future laws allow (I didn’t fully realise that when I wrote my time travel blog, so I ought to update it, soon). You’d be able to inhabit other peoples’ bodies, share their minds, share consciousness and feelings and emotions and thoughts. The frontier suddenly jumps out a lot once we start that recording, because you can go into the future as far as is continuously permitted. Going into that future allows you to get hold of all the future technologies and bring them back home, short circuiting the future, as long as time police don’t stop you. No, I’m not nuts – if you record everyone’s minds continuously, you can time travel into the future using cyberspace, and the effects extend beyond cyberspace into the real world you inhabit, so although it is certainly a cheat, it is effectively real time travel, backwards and forwards. It needs some security sorted out on warfare, banking and investments, procreation, gambling and so on, as well as lot of other causality issues, but to quote from Back to the Future: ‘What the hell?’ [IMPORTANT EDIT: in my following blog, I revise this a bit and conclude that although time travel to the future in this system lets you do pretty much what you want outside the system, time travel to the past only lets you interact with people and other things supported within the system platform, not the physical universe outside it. This does limit the scope for mischief.]

So, time travel in fully networked fully AI-enhanced cosmically-connected cyberspace/dream-space/imagination/love/games would be a bigger and later frontier. It lets you travel far into the future and so it notionally includes any frontiers invented and included by then. Is it the final one though? Well, there could be some frontiers discovered after the time travel windows are closed. They’d be even finaller, so I won’t bet on it.

The future sometimes looks ridiculous. I have occasionally written about smart yogurt and zombies and other things that sound silly but have a real place in the future. I am well used to being laughed at, ever since I invented text messaging and the active contact lens, but I am also well used to saying I told you so later. So: Fairies will play a big role in space travel, probably even dominate it. Yes, those little people with wings, and magic wands, that kind. Laugh all you like, but I am right.

To avoid misrepresentation and being accused of being away with the fairies, let’s be absolutely clear: I don’t believe fairies exist. They never have, except in fairy tales of course. Anyone who thinks they have seen one probably just has poor eyesight or an overactive imagination and maybe saw a dragonfly or was on drugs or was otherwise hallucinating, or whatever. But we will have fairies soon. In 50 or 60 years.

In the second half of this century, we will be able to link and extend our minds into the machine world so well that we will effectively have electronic immortality. You won’t have to die to benefit, you will easily do so while remaining fully alive, extending your mind into the machine world, into any enabled object. Some of those objects will be robots or androids, some might well be organic.

Think of the film Avatar, a story based on yesterday’s ideas. Real science and technology will be far more exciting. You could have an avatar like in the film, but that is just the tip of the iceberg when you consider the social networking implications once the mind-linking technology is commoditised and ubiquitous part of everyday life. There won’t be just one or two avatars used for military purposes like in the film, but millions of people doing that sort of thing all the time.

If an animal’s mind is networked, a human might be able to make some sort of link to it too, again like in Avatar, where the Navii link to their dragon-like creatures. You could have remote presence in the animal. That maybe won’t be as fulfilling as being in a human because the animal has limited functionality, but it might have some purpose. Now let’s leave Avatar behind.

You could link AI to an animal to make it comparable with humans so that your experience could be better, and the animal might have a more interesting life too. Imagine chatting to a pet cat or dog and it chatting back properly.

If your mind is networked as well as we think it could be, you could link your mind to other people’s minds, share consciousness, be a part-time Borg if you want. You could share someone else’s sensations, share their body. You could exchange bodies with someone, or rent yours out and live in the net for a while, or hire a different one. That sounds a lot of fun already. But it gets better.

In the same timeframe, we will have mastered genetics. We will be able to design new kinds of organisms with whatever properties chemistry and physics permits. We’ll have new proteins, new DNA bases, maybe some new bases that don’t use DNA. We’ll also have strong AI, conscious machines. We’ll also be able to link electronics routinely to our organic nervous systems, and we’ll also have a wide range of cybernetic implants to increase sensory capability, memory, IQ, networking and so on.

We will be able to make improved versions of the brain that work and feel pretty much the same as the original, but are far, far smaller. Using synthetic electronics instead of organic cells, signals will travel between neurons at light speed, instead of 200m/s, that’s more than a million times faster. But they won’t have to go so far, because we can also make neurons physically far smaller, hundreds of times smaller, so that’s a couple more zeros to play with. And we can use light to interconnect them, using millions of wavelengths, so they could have millions of connections instead of thousands and those connections will be a billion times faster. And the neurons will switch at terahertz speeds, not hundreds of hertz, that’s also billions of times faster. So even if we keep the same general architecture and feel as the Mk1 brain, we could make it a millimetre across and it could work billions of times faster than the original human brain. But with a lot more connectivity and sensory capability, greater memory, higher processing speed, it would actually be vastly superhuman, even as it retains broadly the same basic human nature.

And guess what? It will easily fit in a fairy.

So, around the time that space industry is really taking off, and we’re doing asteroid mining, and populating bases on Mars and Europa, and thinking of going further, and routinely designing new organisms, we will be able to make highly miniaturized people with brains vastly more capable than conventional humans. Since they are small, it will be quite easy to make them with fully functional wings, exactly the sort of advantage you want in a space ship where gravity is in short supply and you want to make full use of a 3D space. Exactly the sort of thing you want when size and mass is a big issue. Exactly the sort of thing you want when food is in short supply. A custom-designed electronic, fully networked brain is exactly the sort of thing you want when you need a custom-designed organism that can hibernate instantly. Fairies would be ideally suited to space travel. We could even design the brains with lots of circuit redundancy, so that radiation-induced faults can be error-corrected and repaired by newly designed proteins.

Wands are easy too. Linking the mind to a stick, and harnessing the millions of years of recent evolution that has taught us how to use sticks is a pretty good idea too. Waving a wand and just thinking what they want to happen at the target is all the interface a space-fairy needs.

This is a rich seam and I will explore it again some time. But for now, you get the idea.

I did an interview recently on future mining, so I thought I’d blog my thoughts on the subject while they’re all stuck together coherently.

Very briefly, increasing population and wealth will generate higher resource need until the resources needed per person starts to fall at a higher rate, and it will. That almost certainly means a few decades of increasing demand for many resources, with a few exceptions where substitution will impact at a higher rate. Eventually, demand will peak and fall for most resources. Meanwhile, the mining industry can prosper.

Robotics

Robots are already used a lot in mining, but their uses will evolve. Robots have a greater potential range of senses than humans, able to detect whatever sensors are equipped for. That means they can see into rock and analyse composition better than our eyes. AI will improve their decisions. Of course, we’ll still have the self drive vehicles, diggers and the other automation we already expect to see.

If a mine can be fully automated, it may reduce deaths and costs significantly. Robots can also have a rapid speed of reaction as well as AI and advanced sensing, and could detect accidents before they happen.Apart from saving on wages, robots also don’t need expensive health and safety, so that may see lower costs, but at the expense of greater risks with occasional flat robots in an automated mine. The costs of robots can be kept low if most of their intelligence is remote rather than on board. Saving human lives is a benefit that can’t easily be costed. Far better to buy a new machine than to comfort a bereaved family.

Robots in many other mixed mines will need to be maintained, so maybe people’s main role will often be just looking after the machines, and we would still need to ensure safety in that case. That creates a big incentive to make machines that can be maintained by other machines so that full automation can be achieved.

With use of penetrating positioning systems, specialist wanderer bots could tunnel around at will, following a seam, extracting and concentrating useful materials and leave markers for collector bots to gather the concentrates.

NBIC

With ongoing convergence of biotech, nanotech and IT, we should expect a lot of development of various types of bacterial or mechanical microbots, that can get into new places and reduce the costs of recovery, maybe even reopening some otherwise uneconomic mines. Development of bacteria that can transmute materials has already begun, and we should expect that some future mines will depend mainly on a few bucketfuls of bacterial soup to convert and concentrate resources into more easily extracted reserves. Such advanced technology will greatly increase the reserves of material that can economically be extracted. Obviously the higher the price, the more that can be justified on extraction, so advanced technologies will develop faster when we need them, as any shortages start to appear.

Deep Sea

Deep sea mines would provide access to far greater resource pools, limited mainly by the market price for the material. Re-opening other mines as technology improves recovery potential will also help.

Asteroid Mining

Moving away from the Earth, a lot of hype has appeared about asteroid mining and some analyses seem to think that it will impact enormously on the price of scarce materials here on Earth. I think that is oversold as a possibility. Yes, it will be possible to bring stuff back to Earth, but the costs of landing materials safely would be high and only justified for those with extreme prices. For traditionally expensive gold or diamonds, actual uses are relatively low and generally have good cheaper substitutes, so if large quantities were shipped back to Earth, prices would still be managed as they already are, with slow trickling onto the market to avoid price collapse. That greatly limits the potential wealth from doing so.

I think it is far more likely that asteroid mining will be focused on producing stuff for needed for construction, travel and living in space, such as space stations, ships, energy collection, habitation, outposts etc. In that case, many of the things mined from asteroids would be things that are cheap here, such as water and iron and other everyday materials. Their value in space might be far higher simply because of the expense of moving them. This last factor suggests that there may be a lot of interest in technologies to move asteroids or change their orbits so the resources end up closer to where they are needed. An asteroid could be mined at great length, with the materials extracted and left on its surface, then waiting until the asteroid is close to the required destination before the materials are collected and dispatched. The alternative that we routinely see in sci-fi, with vast mining ships, is possible, and there will undoubtedly be times they are needed, but surely can’t compete on cost with steering an entire asteroid so it delivers the materials itself.

Population growth and resource need

As human population increases, we’ll eventually also see robot and android population increase, and they might also need resources for their activities. We should certainly factor that into future demand estimates. However, there are also future factors that will reduce the resources needed.

Smarter Construction

More advanced construction techniques, development of smarter materials and use of reactive architecture all mean that less resource is needed for a given amount of building. Exotic materials such as graphene and carbon nanotubes, boron derivatives, and possibly even plasma in some applications, will all impact on construction and other industries and reduce demand for lots of resources. The carbon derivatives are a double win, since carbon can usefully be extracted from the products of fossil fuel energy production, making cleaner energy at the same time as providing building and fabrication materials. The new carbon materials are a lot stronger than steel, so we may build much higher buildings, making a lower environmental footprint for cities. They are also perfect for making self-driving cars as well as their energy storage, power supply and supporting infrastructure.

IT efficiency v the Greens

Miniaturisation of electronics and IT will continue for decades more. A few cubic millimetres of electronics could easily replace all the electronics owned by a typical family today. Perversely, Greens are trying hard to force a slower obsolescence cycle, not understanding that the faster we get to minimal resource use, the lower the overall environmental impact will be. By prolonging high-resource-use gadgets, even as people get wealthier and can afford to buy more, the demands will increase far beyond what is really necessary of they hadn’t interfered. It is far better for 10 billion people to use a few cubic millimetres each than a few litres. Greens also often want to introduce restrictions on development of other advanced technology, greatly overusing the precautionary principle. Their distrust of science and technology is amazing considering how much it can obviously benefit the environment.

A lot of things can be done virtually too, with no resource use at all, especially displays and interfaces, all of whichcould share a single common display such as a 0.2 gram active contact lens. A lot of IT can be centralised with greater utilisation, while some can achieve better efficiency by decentralising. We need to apply intelligence to the problem, looking at each bit as part of an overall system instead of in isolation, and looking at the full life cycle as well as the full system.

Substitution will reduce demand for copper, neodymium, lithium

Recycling of some elements will provide more than is needed by a future market because of material substitution, so prices of some could fall, such as copper. Copper in plumbing is already being substituted heavily by plastic. In communications, fibre and mobile are already heavily replacing it. In power cables, it will eventually be substituted by graphene. Similar substitution is likely in many other materials. The primary use of neodymium is in wind turbines and high speed motors. As wind turbines are abandoned and recycled in favour of better energy production techniques, as future wind power can even be based on plastic capacitors that need hardly any metal at all, and as permanent magnets in motors are substituted by superconducting magnets, there may not be much demand for neodymium. Similarly, lithium is in great demand for batteries, but super-capacitors, again possibly using carbon derivatives such as graphene, will substitute greatly for them. Inductive power coupling from inductive mats in a road surface could easily replace most of the required capacity for a car battery, especially as self driving cars will be lighter and closer together, reducing energy demand. Self-driving cars even reduce the number of cars needed as they deter private ownership. So it is a win-win-win for everyone except the mining industry. A small battery or super-cap bank might have little need for lithium. Recycled lithium could be all we need. Recycling will continue to improve through better practice and better tech, and also some rubbish tips could even be mined if we’re desperate. With fewer cars needed, and plastic instead of steel, that also impacts on steel need.

The Greens are the best friends of the mining industry

So provided we can limit Green interference and get on with developing advanced technology quickly, the fall in demand per person (or android) may offset resource need at a higher rate than the population increases. We could use less material in the far future than we do today, even with a far higher average standard of living. After population peaks and starts falling, there could be a rapid price fall as a glut of recycled material appears. That would be a bleak outcome for the mining sector of course. In that case, by delaying that to the best of their ability, it turns out that the Greens are the mining industry’s best friends, useful idiots, ensuring that the markets remain as large as possible for as long as possible, with the maximum environmental impact.

It certainly takes a special restriction of mind to let someone do so much harm to the environment while still believing they occupy the moral high ground!

Carbon industry

Meanwhile, carbon sequestration could easily evolve into a carbon materials industry, in direct competition with the traditional resources sector, with carbon building materials, cables, wires, batteries, capacitors, inductors, electronics, fabrics…..a million uses. Plastics will improve in parallel, often incorporating particles of electronics, sensors, and electronic muscles, making a huge variety of potential smart materials for any kind of building, furniture of gadget. The requirement for concrete, steel, aluminium, copper, and many other materials will eventually drop, even as population and wealth grows.

To conclude, although population increase and wealth increase will generate increasing demand in the short to medium term, and mining will develop rapidly along many avenues, in the longer term, the future will rely far more on recycling and advanced manufacturing techniques, so the demand for raw materials will eventually peak and fall.

I wrote at far greater length about achieving a system-wide sustainable future in my book Total Sustainability, which avoids the usual socialist baggage.

We’ve been told for decades now that population will level off, probably around 2050, and population after that will likely decline. The world population will peak around 2050 at about 9.5 Billion. That’s pretty much the accepted wisdom at the moment.

The reasoning is pretty straight forward and seems sound, and the evidence follows it closely. People are becoming wealthier. Wealthier people have fewer kids. If you don’t expect your kids to die from disease or starvation before they’re grown up, you don’t need to make as many.

But what if it’s based on fallacy? What if it is just plain wrong? What if the foundations of that reasoning change dramatically by 2050 and it no longer holds true? Indeed. What if?

Before I continue, let me say that my book ‘Total Sustainability’, and my various optimistic writings and blogs about population growth all agree with the view that population will level off around 2050 and then slowly decline, while food supply and resource use will improve thanks to better technologies, thereby helping us to restore the environment. If population may increase again, I and many others will have to rethink.

The reason I am concerned now is that I just made another cross-link with the trend of rising wealth, which will allow even the most basic level of welfare to be set at a high level. It is like the citizen payment that the Swiss voted on recently. I suggested it a couple of years ago myself and in my books, and am in favour of it. Everyone would receive the same monthly payment from the state whether they work or not. The taxes due would then be calculated on the total income, regardless of how you get it, and I would use a flat tax for that too. Quite simple and fair. Only wealthier people pay any tax and then according to how wealthy they are. My calculations say that by 2050, everyone in the UK could get £30,000 a year each (in today’s money) based on the typical level of growth we’ve seen in recent decades (ignoring the recession years). In some countries it would be even higher, in some less, but the cost of living is also less in many countries. In many countries welfare could be as generous as average wages are today.

So by 2050, people in many countries could have an income that allows them to survive reasonably comfortably, even without having a job. That won’t stop everyone working, but it will make it much easier for people who want to raise a family to do so without economic concerns or having to go out to work. It will become possible to live comfortably without working and raise a family.

We know that people tend to have fewer kids as they become wealthier, but there are a number of possible reasons for that. One is the better survival chances for children. That may still have an effect in the developing world, but has little effect in richer countries, so it probably won’t have any impact on future population levels in those countries. Another is the need to work to sustain the higher standard of living one has become used to, to maintain a social status and position, and the parallel reluctance to have kids that will make that more difficult. While a small number of people have kids as a means to solicit state support, but that must be tiny compared to the numbers who have fewer so that they can self sustain. Another reason is that having kids impedes personal freedom, impacts on social life and sex life and adds perhaps unwelcome responsibility. These reasons are all vulnerable to the changes caused by increasing welfare and consequential attitudes. There are probably many other reasons too.

Working and having fewer kids allows a higher standard of living than having kids and staying at home to look after them, but most people are prepared to compromise on material quality of life to some degree to get the obvious emotional rewards of having kids. Perhaps people are having fewer kids as they get wealthier because the drop of standard of living is too high, or the risks too high. If the guaranteed basic level of survival is comfortable, there is little risk. If a lot of people choose not to work and just live on that, there will also be less social stigma in not working, and more social opportunities from having more people in the same boat. So perhaps we may reasonably deduce that making it less uncomfortable to stop work and have more kids will create a virtuous circle of more and more people having more kids.

I won’t go as far as saying that will happen, just that it might. I don’t know enough about the relative forces that make someone decide whether to have another child. It is hard to predetermine the social attitudes that will prevail in 2050 and beyond, whether people will feel encouraged or deterred from having more kids.

My key point here is that the drop in fertility we see today due to increasing wealth might only hold true up to a certain point, beyond which it reverses. It may simply be that the welfare and social floor is too low to offer a sufficient safety net for those considering having kids, so they choose not to. If the floor is raised thanks to improving prosperity, as it might well be, then population could start to rise quickly again. The assumption that population will peak at 9 or 9.5 billion and then fall might be wrong. It could rise to up to 15 billion, at which point other factors will start to reassert themselves. If our assumptions on age of death are also underestimates, it could go even higher.

I wrote You Tomorrow two years ago. It was my first ebook, and pulled together a lot of material I’d written on the general future of life, with some gaps then filled in. I was quite happy with it as a book, but I could see I’d allowed quite a few typos to get into the final work, and a few other errors too.

However, two years is a long time, and I’ve thought about a lot of new areas in that time. So I decided a few months ago to do a second edition. I deleted a bit, rearranged it, and then added quite a lot. I also wrote the partner book, Total Sustainability. It includes a lot of my ideas on future business and capitalism, politics and society that don’t really belong in You Tomorrow.

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about me

I'm an all-round futurist/futurologist with a sound engineering foundation and lots of inventions. I've delivered well over 1000 conference presentations and appeared nearly 600 times on TV and Radio, often due to writing I've done for PR campaigns. I've written hundreds of comissioned reports, press articles and several books, most recently Space Anchor, Total Sustainability and You Tomorrow (2nd Edn). I undertake written and face-to-face consultancy on all aspects of the future, usually from a technology perspective, using over 30 years experience as a futurologist and engineer. I have demonstrated about 85% accuracy when looking 10-15 years ahead.

I am a Chartered Fellow of the British Computer Society and a Fellow of the World Academy for Arts and Science, the World innovation Foundation and the Royal Society for Arts and Commerce.